The present invention uses some type of inflatable membrane during processing to establish a vacuum and/or provide a resilient cushion on which the backside of the wafer can rest. In one aspect, the present invention provides an outer vacuum that allow for attachment of the wafer to the carrier head during processing, and also provides an inner inflatable membrane that provides a resilient cushion on which the backside of the wafer can rest during processing. In other aspects, the present invention provides a membrane that is displaceable with a vacuum within certain cavity regions to provide for attachment of the wafer to the wafer carrier.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method of holding a wafer during processing comprising the steps of: providing a carrier head that includes an inner flexible membrane and an outer gasket member along a base of the carrier head; aligning the wafer with the carrier head; applying a vacuum between the outer gasket member and the inner flexible member, thereby causing the wafer to attach to the carrier head; and processing the wafer, wherein the presence of the inner flexible membrane provides compliant wafer support.
2. The method according to claim 1 wherein at least a portion of the step of inflating occurs prior to the step of applying.
3. The method according to claim 1 wherein the step of processing performs one of chemical mechanical polishing and electrochemical mechanical processing.
4. A substrate carrier head for holding a wafer during processing that is capable of receiving a vacuum and holds a wafer from a backside of the substrate during processing of the substrate, the substrate carrier head comprising: a base; a flexible membrane disposed over the base to which physical contact with a substantial backside portion of the wafer is made; a gasket member disposed at an outer perimeter of the base around the flexible membrane; and at least one vacuum inlet disposed between the flexible membrane and the gasket member, the vacuum inlet connectable to the vacuum to allow the backside of the substrate to be held on the flexible membrane and the gasket member, with vacuum pressure therebetween.
5. The substrate carrier according to claim 4 wherein the flexible membrane is inflatable, and further comprising at least one fluid inlet attached to the inflatable flexible membrane through which a fluid can pass to inflate the inflatable flexible membrane.
6. The substrate carrier according to claim 5 wherein the gasket member is an o-ring.
7. The substrate carrier according to claim 4 wherein processing of the substrate comprises one of chemical mechanical polishing and electrochemical mechanical processing.
8. The method according to claim 1 , further comprising inflating the inner flexible membrane.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
January 8, 2002
April 6, 2004
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